Gas-Phase Structures and Acidities of the Sulfur Oxoacids H2SnO6 (n = 2−4) and H2S2O7

The gas-phase acidities of the most stable conformations of nine sulfur oxo acids were determined by ab initio MO calculations at the CBS-Q, G2(MP2), and G2 levels of theory. The most accurate G2 results are as follows (∆G°2 98 of the deprotonation reaction in kJ mol -1 ): H-S-O-H 1468, H-S-O-H 1449

The gas-phase acidities ∆G acid (298 K) of the sulfanes H 2 S n may be compared to those of other strong Brønsted acids like gaseous HNO 2 (1396), HCl (1371), and HBr (1332). The (n = 1-4) have been calculated by ab initio molecular orbital theory using the G2 and G2(MP2) methods, which were monoani

Infrared spectra of and of indicate weak to moderate NÈHAE AE AEN (N 2 H 5 ) 2 HGaF 6 AE 2H 2 O ( N 2 H 5 ) 2 HFeF 6 AE 2H 2 O hydrogen bonding. Data are interpreted in terms of a double minimum symmetrical potential well with a high barrier and statistical distribution of hydrogen in the minima on

Bis(disulfido) bridged Nb IV cluster oxalate complexes [Nb 2 (S 2 ) 2 (C 2 O 4 ) 4 ] 4± were prepared by ligand substitution reaction from the aqua ion [Nb 2 (l-S 2 ) 2 (H 2 O) 8 ] 4+ and isolated as K 4 (3). The crystal structures of 1 and 2 were determined. The crystals of 1 belong to the space